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Tehachapi Energy Storage Project

January 01, 1970

The Tehachapi Energy Storage Project (TSP) is a 8MW/32MWh lithium-ion battery-based grid energy storage system at the Monolith Substation of Southern California Edison (SCE) in Tehachapi, California, sufficient to power between 1,600 and 2,400 homes for four hours.[1] At the time of commissioning in 2014, it was the largest lithium-ion battery system operating in North America and one of the largest in the world.[2][3][4][5] TSP is considered to be a modern-day energy storage pioneer with significant accomplishments that have proven the viability of utility-scale energy storage using lithium-ion technology.[6] While originally envisioned as a research and development project,[7] TSP operated as a distribution-level resource for SCE and for calendar year 2020, SCE reported that TSP operated in the wholesale energy market with revenue exceeding operating and maintenance costs.[8][9] In 2021, SCE began the decommissioning of TSP, which was followed by formal decommissioning by state regulators in 2022.[10][11] The physical dismantlement of TSP is expected to be completed by the end of 2022.[12]

Tehachapi Energy Storage Project
Overhead View of Tehachapi Energy Storage Project, Tehachapi, CA
CountryUnited States
LocationTehachapi, Kern County, CA
Coordinates35°7′24″N 118°22′48″W / 35.12333°N 118.38000°W / 35.12333; -118.38000
StatusDecommissioned
Construction began2013
Commission date2014
Decommission date2022
Owner(s)Southern California Edison
Operator(s)Southern California Edison
Site area6300 sq. ft.
Site elevation3966 ft.
Power generation
Nameplate capacity8 MW
Storage capacity32 MWh
External links
Websitehttps://newsroom.edison.com/releases/sce-unveils-largest-battery-energy-storage-project-in-north-america
CommonsRelated media on Commons
[edit on Wikidata]

System edit

At a windy mountain pass on the edge of the Mojave Desert, North America’s most potent collection of batteries used for storing unused power is humming its way toward an electricity revolution.[13]

Whitney McFerron, Bloomberg

In May 2013, Southern California Edison awarded the TSP contract to a consortium led by LG Chem, the battery division of the South Korean industrial conglomerate LG Corporation. LG Chem supplied the battery systems while ABB supplied the inverters and LG CNS provided the engineering and construction support.[5]

The TSP system was one of the first to demonstrate the assembly of a large quantity of lithium-ion batteries into a single system on the order of megawatts of power and tens of megawatt-hours of energy to provide electric grid support. The project uses electric vehicle-grade batteries and demonstrates the synergies between batteries for the automotive and electric grid sectors.[14] During 2009 to 2014, more than 120 grid energy storage projects were commissioned, marking a significant turning point for grid batteries.[15] The TSP system had a significant role in this as a large, utility-owned system providing multiple energy services using commercially available products.[15]

The TSP system was designed and evaluated using an application-driven approach.[16] Energy storage for the wind farms at Tehachapi Pass[17] have been extensively studied before, including the impacts of energy storage at Monolith Substation.[18] As Edison International, parent company of Southern California Edison (SCE), describes, there is a continued interest in energy storage from utilities, along with a view that there will be technical innovations to help with managing the grid in a more efficient and reliable manner.[19]

The history of seismic activity in Kern County,[20] including damage to substation structures,[21] created some challenging system design requirements, such as having the populated battery racks designed and tested to meet IEEE 693-2005, Recommended Practice for Seismic Design of Substations recommendations.[22][23] Since commissioning in 2014, the area has experienced not only seismic activity,[24] but also flash floods and subsequent mudslides.[25]

One key lesson learned is the importance of subscale testing by the electric utility prior to full system deployment so that the safety and operational controls and features could be fully evaluated.[26][27] This was the first known use of a subscale system by an entity other than a manufacturer or integrator to facilitate full-scale testing, commissioning, and ongoing operations.[6] The mini-system test plan included two phases:

  1. Performing safety testing on the expected behavior of the batteries and battery management system during interruptions to communication paths during system startup and operation and
  2. Performing system acceptance tests on the Mini-System to verify correct operation of the control algorithms, test modes, and system response prior to performing the same tests on the full system.[6]

The original mini-system provided engineers with support for full system startup and commissioning, but, with only one battery section and one inverter lineup, engineers were unable to test the multi-inverter lineup-battery section operation of the system in the laboratory, such as inter-section balancing controls, multi-inverter operation, and symmetrical and unsymmetrical operation of the inverter lineups.[6] To more closely resemble the full system, the mini-system was expanded in December 2015 to include twice the number of each component, resulting in a system with two inverter controllers, inverter lineups, and battery sections.[6]

 
Mini-system used for sub-scale testing and evaluation

The TSP system is constructed of 608,832 lithium-ion battery cells that are enclosed into 10,872 modules of 56 cells each and then stacked in 604 racks.[2][26] A bi-directional inverter or power conversion system (PCS) provides the DC-to-AC conversion during battery discharging and AC-to-DC conversion for battery charging.[26] The batteries are housed in a 6,300-square-foot (590 m2) building.[28] The TSP system can supply 32 megawatt-hours of energy, at a maximum rate of 8 megawatts. This is sufficient to power between 1,600 and 2,400 homes for four hours.[1] The amount of energy stored at TSP is equivalent to that stored in more than 2,000 Chevrolet Volt hybrid electric vehicles.[29]

 
Inside the Tehachapi Energy Storage Project during construction
Specifications for mini-system and full system[6][30]
Mini-System at Pomona, CA (Original) Mini-System at Pomona, CA (December 2015 Expansion) Full System at Tehachapi, CA
Footprint 77 square feet 154 square feet 6300-square-foot building
Power 30 kW 60 kW 8 MW
Energy 116 kWh 232 kWh 32 MWh
Inverter One mini-cabinet Two mini-cabinets Two 40-foot containers
Sections 1 2 4
Banks 1 2 32
Racks 2 4 604
Modules 36 72 10,872
Cells 2,016 4,032 608,832

Deployment edit

TSP is an example of commercially available large-scale energy storage for electric grid applications[31] and part of the increasing fleet of energy storage systems.[32] The deployment of TSP has been part of the key foundation in developing energy storage in California[33] and for increasing grid reliability overall.[34] TSP is also providing improved integration and opportunities for better operation of renewable energy resources.[35]

In 2014, TSP was one of the large-scale energy storage projects in the interconnection queue for the California Independent System Operator (CAISO) with planned benefits including firming renewable generation, frequency regulation, spin and non-spin replacement reserves, ramp management, and energy price arbitrage.[36] The TSP system was tested using eight core tests performed by the grid operator or under market control.[37] Some of the lessons learned included the challenges related to outage scheduling, challenges with interconnection agreements, benefits of component validation testing at the factories, and preparing detailed step-by-step test plans in advance.[30] Both the utility and system provider gained important perspectives and insights during the design, construction, commissioning, and operating of the TSP system.[38][6][22]

To evaluate the 13 operational uses, SCE defined eight tests to measure the ability of TSP to respond to the following system needs or signals:

  1. Provide steady state voltage regulation at the local Monolith 66 kV bus
  2. Provide steady state voltage regulation at the local Monolith 66 kV bus while performing any other tests
  3. Charge during periods of high wind and discharge during low wind under SCE system operator control
  4. Charge during off-peak periods and discharge during on-peak periods under SCE system operator control
  5. Charge and discharge seconds-to-minutes as needed to smooth intermittent generation in response to a real-time signal
  6. Respond to CAISO control signals to provide frequency response
  7. Respond to CAISO control signals to provide spin and non-spin reserves
  8. Follow a CAISO market signal for energy price.[6]
Tehachapi Operational Uses and Tests[30]
Operational Use Test
1 2 3 4 5 6 7 8
Transmission Voltage Support 1 X X
Decreased Losses 2 X
Diminished Congestion 3 X
Increased System Reliability 4 X
Deferred Transmission Investment 5 X X
Optimized Renewable-Related Transmission 6 X X
System System Capacity/Resource Adequacy 7 X X
Renewable Integration (firming & shaping) 8 X
Output Shifting 9 X
ISO Market Frequency Regulation 10 X
Spin and Non-Spin Reserves 11 X
Deliver Ramp Rate 12 X X
Energy Price Arbitrage 13 X

The final project report for the United States Department of Energy after system deployment concludes that TSP is a modern-day energy storage pioneer, achieving a number of significant accomplishments that have proven the viability of utility-scale energy storage using lithium-ion technology.[6] These accomplishments include:[6]

  • The largest lithium-ion battery energy storage system in North America in terms of energy capacity (32 MWh) at the time of commissioning in 2014
  • The first battery energy storage system in California specifically designed and operated as a dual-use asset, supporting utility transmission and distribution functions and operating in the competitive power market
  • The first known use of a subscale or mini-system by an entity other than a manufacturer or integrator to facilitate full scale testing, commissioning, and ongoing operations
  • The first battery energy storage system integrated with SCE’s systemwide Supervisory Control and Data Acquisition (SCADA) system providing high-level visibility and control to grid operators
  • The first battery energy storage system to be operated by SCE and one of the first to be interconnected, certified, and operated in the CAISO market
  • The first modern, large-scale, lithium-ion battery energy storage system installed in an SCE substation and connected to the regional transmission network
  • Serving as the foundation for subsequent SCE energy storage procurements

Operation edit

 
Panoramic view of the battery building for the Tehachapi Energy Storage Project and Monolith Substation

Since the start of market operations in 2016, TSP has been listed in the Monthly Electric Generator Inventory of the Energy Information Administration (EIA) as an electric generator.[39] During that time period, the EIA began publishing more-detailed energy storage information in its Annual Electric Generator Report, including battery capacity, charge and discharge rates, storage technology types, reactive power ratings, storage enclosure types, and expected usage applications.[40]

The operation of the TSP system has been described as a real-life example of grid-connected energy storage,[41] and some of the initial testing included storing wind energy at night and delivering it during the day when customers need it.[42] The California Independent System Operator (CAISO), a grid system operator, shares its operating experiences of TSP internationally with other grid operators as part of continued close collaborations.[43] The ongoing operation of the TSP system continues to provide grid services in the energy market and lessons learned for grid energy-storage systems.[44][45]

In its annual report to the California Public Utilities Commission (CPUC) for calendar year 2020, SCE reported that TSP continued to operate in the CAISO wholesale market and that market benefits exceeded operating and maintenance costs.[9] In addition to market operations, SCE continued to collect operating data to evaluate the long-term operating characteristics of grid scale lithium-ion battery storage technology.[9]

TSP was taken offline on May 17, 2021 and on August 23, 2021, SCE submitted a request to the CPUC for the decommissioning of TSP due to the cost of safety upgrades and cybersecurity concerns.[10] On May 5, 2022, the CPUC formally decommissioned TSP, nine years after it came online.[11][46] The physical dismantlement of TSP is expected to be completed by the end of 2022.[12] All of the battery cells will be recycled and the inverter will be repurposed.[12] TSP operated for more than four years beyond the original two-year demonstration period, which SCE considers to be significant due to the fact that TSP uses first-generation lithium-ion BESS products that are no longer in production.[10] The additional operational period has provided lessons learned about long-term operations, maintenance, and repairs.[10] Due to the system size, TSP will be one of the first and largest lithium-ion battery systems to undergo decommissioning.[10] SCE describes that:[10]

TSP was a highly successful project that helped transform the industry, demonstrate large lithium-ion BESS technology, increase operational experience for SCE, and provide value for California utility customers. The BESS far exceeded its original two-year demonstration; it's appropriate to decommission now.

Analysis edit

One of the major benefits of the TSP system is the wide range of studies and analyses performed by multiple organizations to address various aspects of the energy market. Operational information has been used as part of developing incentives for distributed energy storage for California, New York, Hawaii, and several other states.[47] The energy management system (EMS) and EMS structure for TSP have been studied to develop and determine the technical, market, and regulatory requirements for energy-storage systems.[48]

The University of California, Riverside has used TSP for the stochastic valuation of energy storage in wholesale power markets to determine optimal power dispatch sequences.[49] The findings from this study include:

  1. System performance is heavily affected by roundtrip efficiency and power-to-energy ratio.
  2. The optimal power-to-energy ratio for wholesale power market is much higher than the nominal configuration of 1-to-4 typically used in existing energy storage projects.
  3. The majority of revenues are from frequency regulation services.[50]

In a separate analysis, the University of California, Riverside used real market data from TSP to develop an optimal supply and demand bidding, scheduling, and deployment design framework based on the day-ahead and real-time market prices, location, size, efficiency, lifetime, and charge and discharge rates.[51] The topic of used and second-use batteries is also examined and analysis shows that by using one of the proposed bidding methods, TSP could still be profitable even after losing half of its energy capacity.[51]

Based on the studies described above, the University of California, Riverside performed an additional analysis for the scenarios where battery systems are investor-owned and independently operated and participating in existing markets.[52] The study proposes a new optimization framework to coordinate the operation of large, price-maker, and geographically dispersed energy storage systems in a nodal transmission-constrained energy market.[52]

The Institute of Electrical and Electronics Engineers (IEEE) published a collection of technical papers analyzing energy storage, including a review of TSP.[53] The review described how TSP met the project objectives and provided the required operational uses.[53] While there were some challenges, including control system issues and a poor transformer design, these issues were not related to the storage technology itself.[53] SCE continues to use its experiences from TSP in the development of additional energy storage projects.[53]

The Edison Electric Institute (EEI), which represents all investor-owned utilities in the United States, published a set of case studies and described how TSP has capabilities to provide nearly instantaneous maximum capacity for renewables ramping, which minimizes needs for traditional backup generators.[54] EEI also described that TSP remained operational after the 24-month pilot and testing period of the project.[54]

The European Commission performs an ongoing analysis of energy storage systems, including TSP, and has global collaborations with technical experts to exchange and to learn about operating details, challenges, and best practices.[55] Some of the challenges resolved for TSP included the programming logic, safety limits, and data aggregation, as well as the use of consistent paths for component communications.[55] The analysis also mentions how in general, the system integration and control aspects for energy storage systems need to be resolved and addressed by a European master plan.[55] In addition, recycling is a topic that needs to handled as market growth continues.[55]

PV Tech Power published a journal article describing how TSP and battery storage are being used as peaking capacity.[56] The article mentions that TSP provided support for the rapid expansion of renewable energy, as well as being a rare utility-scale battery with a 4-hour duration during the 2014 timeframe when it was commissioned.[56] The article explains how four hours is now considered to be the optimum duration for peaking capacity for two reasons: 1) Mitigating peak demand as solar power ramps down in the late afternoon and evening and 2) Providing the optimum cost point for lithium-ion batteries to provide that capacity.[56]

Awards and accolades edit

It seems an unlikely setting for a technology revolution: a wind-swept patch of Mojave Desert, squeezed in beside railroad tracks and a giant cement plant. But there it is, on the grounds of Southern California Edison’s Monolith substation near Tehachapi, Calif.: the largest battery for storing electricity in North America.[1]

Bill Loving, Edison International - Energized

 
Information sheet distributed during ribbon-cutting ceremony-Page 1
 
Information sheet distributed during ribbon-cutting ceremony-Page 2

An official ribbon-cutting ceremony, site tour, and presentation of a certificate of recognition from the California State Senate were held on September 24, 2014.[3][57][58] The ceremony speakers included Doug Kim (Director of Advanced Technology, Southern California Edison), Zack Scrivner (Supervisor, Kern County Board of Supervisors), Dr. Imre Gyuk (Energy Storage Program Manager, United States Department of Energy), Dr. Seokhwan Kwak (Vice President of Marketing, LG Chem), and Romeo Agbalog (Office of State Senator, Jean Fuller – 18th District).[58] Tours of the control room, battery room, and inverter enclosures were provided.[57][58]

Upon commissioning, TSP was selected as a finalist for the 2014 Innovation Award for Energy Storage North America (ESNA) and elected to the ESNA Hall of Fame.[59][60] Later in 2014, TSP was included in Innovations Across the Grid published by the Edison Foundation Institute for Electric Innovation, which described how the distribution grid is evolving to optimize the electric grid, integrate new resources, and provide customer solutions.[61] TSP was featured as a real-life, new energy resource case study.[61]

PBS science correspondent Miles O'Brien covered TSP in the December 15, 2015 edition of PBS NewsHour in a segment with Doug Kim of SCE that discussed the use of TSP to store energy generated by wind turbines.[42]

A hundred miles north of Los Angeles, in Tehachapi, California, the wind can be a bountiful resource, but, unfortunately, not at the right time. It blows hardest at night, spooling up these wind turbines to their peak output, when the demand for electricity is at it lowest.

— Miles O'Brien, PBS NewsHour

So, matching the output of wind to when customers really need it, that's certainly one of the things that we're looking at with this system that you see here, because you can store energy.

— Doug Kim, PBS NewsHour

In 2016, the California Energy Storage Alliance featured TSP in the lead position in a video with policymakers, utility executives, and energy storage pioneers titled Gamechangers: How Energy Storage Transforms the Power System, which describes how SCE pioneered the use of grid energy storage.[62] Region 6 of the IEEE awarded its Director's Award to SCE in 2016 with the successful completion of TSP as one of the key accomplishments.[63] The Energy Storage Association (ESA) awarded LG Chem the Brad Roberts Award for Outstanding Industry Achievement in 2017 for marketplace and industry accomplishments during the past several years, including the successful delivery and commissioning of TSP.[64][65]

At the Kern County Energy Summit 2017, Vibhu Kaushik, SCE principal manager, described TSP as the start of utility-scale energy storage projects for SCE.[66]

…the story really started here in Kern County about five years ago when we built the world’s largest energy storage project, the Tehachapi Battery Storage Project. 8 megawatts 32 megawatt-hours. It got a lot of attention and made news everywhere as battery storage became a part of the energy mix at that time as people started looking at battery storage as a megawatt-size utility-scale resource.

— Vibhu Kaushik, Kern County Energy Summit 2017, Southern California Edison’s Recent Energy Storage Projects

PBS featured TSP in the Search for the Super Battery episode of Nova in 2017.[67] Host and science writer David Pogue described how lithium-ion batteries are being installed on the grid and Doug Kim of SCE explained the use of TSP for smoothing, firming, and time shifting of wind power.[67]

The 2018 and 2019 Economic Round Table Reports from the Greater Antelope Valley Economic Alliance include TSP as a highlight in the Renewable Energy sections.[68] Kern County, California describes TSP as a key feature in its renewable energy portfolio[69] for storing energy from solar power and wind power and improving grid flexibility and reliability.[70] Kern County continues to cultivate energy storage as providing economic development opportunities for 2020 and beyond;[71] by 2023, storage facilities a hundred times bigger than TSP are operating in Kern, California and USA.[72]

In 2019, the U.S. Department of Energy featured TSP in Success Stories Spotlight: Solving Industry’s Energy Storage Challenges.[73] The case study examined two areas: technology advancement and impact.[73]  TSP advanced technology by showing the abilities of lithium-ion battery storage systems to ramp up nearly instantaneously to maximum power capacity.[73]  TSP also demonstrated technical capabilities for frequency regulation, decreased transmission losses, voltage stabilization, and deferred transmission investment.[73]  The case study describes how TSP was operated outside of a laboratory and at scale.[73] As a result, one of the important impacts of TSP is that it provided practical experience in operations and reliability under real-word conditions as one of the largest energy storage systems located on a high-traffic grid.[73]   The project provided hardware and software learning opportunities for the system supplier for future projects.[73]   Additional impacts included providing increased definition and development of the process for interconnecting energy storage systems to the grid.[73]  In turn, this provided improvements for integrating energy storage systems into power markets and providing financial data for the valuation of future projects.[73]  One additional impact mentioned was that the TSP provided an increased amount of renewable energy on the grid, as well as improved grid reliability and power quality.[73]

In 2021, Forbes mentioned TSP as a notable example of energy storage used by SCE for charging and discharging power from the electric grid in support of renewable energy and electric utility preparations for electrification and decarbonization.[74] Forbes explained that TSP can store and discharge energy at any time using lithium-ion batteries with a limited duration.[74]

See also edit

References edit

Citations edit

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Bibliography edit

  • "SCE Unveils Largest Battery Energy Storage Project in North America". Edison International. Retrieved 2020-05-10.
  • "North America's Largest Battery Energy Storage System Now Operational". www.businesswire.com. 2014-09-24. Retrieved 2020-05-12.

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January 01, 1970
tehachapi, energy, storage, project, 32mwh, lithium, battery, based, grid, energy, storage, system, monolith, substation, southern, california, edison, tehachapi, california, sufficient, power, between, homes, four, hours, time, commissioning, 2014, largest, l. The Tehachapi Energy Storage Project TSP is a 8MW 32MWh lithium ion battery based grid energy storage system at the Monolith Substation of Southern California Edison SCE in Tehachapi California sufficient to power between 1 600 and 2 400 homes for four hours 1 At the time of commissioning in 2014 it was the largest lithium ion battery system operating in North America and one of the largest in the world 2 3 4 5 TSP is considered to be a modern day energy storage pioneer with significant accomplishments that have proven the viability of utility scale energy storage using lithium ion technology 6 While originally envisioned as a research and development project 7 TSP operated as a distribution level resource for SCE and for calendar year 2020 SCE reported that TSP operated in the wholesale energy market with revenue exceeding operating and maintenance costs 8 9 In 2021 SCE began the decommissioning of TSP which was followed by formal decommissioning by state regulators in 2022 10 11 The physical dismantlement of TSP is expected to be completed by the end of 2022 12 Tehachapi Energy Storage ProjectOverhead View of Tehachapi Energy Storage Project Tehachapi CACountryUnited StatesLocationTehachapi Kern County CACoordinates35 7 24 N 118 22 48 W 35 12333 N 118 38000 W 35 12333 118 38000StatusDecommissionedConstruction began2013Commission date2014Decommission date2022Owner s Southern California EdisonOperator s Southern California EdisonSite area6300 sq ft Site elevation3966 ft Power generationNameplate capacity8 MWStorage capacity32 MWhExternal linksWebsitehttps newsroom edison com releases sce unveils largest battery energy storage project in north americaCommonsRelated media on Commons edit on Wikidata Contents 1 System 2 Deployment 3 Operation 4 Analysis 5 Awards and accolades 6 See also 7 References 7 1 Citations 7 2 Bibliography 8 External linksSystem editAt a windy mountain pass on the edge of the Mojave Desert North America s most potent collection of batteries used for storing unused power is humming its way toward an electricity revolution 13 Whitney McFerron Bloomberg In May 2013 Southern California Edison awarded the TSP contract to a consortium led by LG Chem the battery division of the South Korean industrial conglomerate LG Corporation LG Chem supplied the battery systems while ABB supplied the inverters and LG CNS provided the engineering and construction support 5 The TSP system was one of the first to demonstrate the assembly of a large quantity of lithium ion batteries into a single system on the order of megawatts of power and tens of megawatt hours of energy to provide electric grid support The project uses electric vehicle grade batteries and demonstrates the synergies between batteries for the automotive and electric grid sectors 14 During 2009 to 2014 more than 120 grid energy storage projects were commissioned marking a significant turning point for grid batteries 15 The TSP system had a significant role in this as a large utility owned system providing multiple energy services using commercially available products 15 The TSP system was designed and evaluated using an application driven approach 16 Energy storage for the wind farms at Tehachapi Pass 17 have been extensively studied before including the impacts of energy storage at Monolith Substation 18 As Edison International parent company of Southern California Edison SCE describes there is a continued interest in energy storage from utilities along with a view that there will be technical innovations to help with managing the grid in a more efficient and reliable manner 19 The history of seismic activity in Kern County 20 including damage to substation structures 21 created some challenging system design requirements such as having the populated battery racks designed and tested to meet IEEE 693 2005 Recommended Practice for Seismic Design of Substations recommendations 22 23 Since commissioning in 2014 the area has experienced not only seismic activity 24 but also flash floods and subsequent mudslides 25 One key lesson learned is the importance of subscale testing by the electric utility prior to full system deployment so that the safety and operational controls and features could be fully evaluated 26 27 This was the first known use of a subscale system by an entity other than a manufacturer or integrator to facilitate full scale testing commissioning and ongoing operations 6 The mini system test plan included two phases Performing safety testing on the expected behavior of the batteries and battery management system during interruptions to communication paths during system startup and operation and Performing system acceptance tests on the Mini System to verify correct operation of the control algorithms test modes and system response prior to performing the same tests on the full system 6 The original mini system provided engineers with support for full system startup and commissioning but with only one battery section and one inverter lineup engineers were unable to test the multi inverter lineup battery section operation of the system in the laboratory such as inter section balancing controls multi inverter operation and symmetrical and unsymmetrical operation of the inverter lineups 6 To more closely resemble the full system the mini system was expanded in December 2015 to include twice the number of each component resulting in a system with two inverter controllers inverter lineups and battery sections 6 nbsp Mini system used for sub scale testing and evaluation The TSP system is constructed of 608 832 lithium ion battery cells that are enclosed into 10 872 modules of 56 cells each and then stacked in 604 racks 2 26 A bi directional inverter or power conversion system PCS provides the DC to AC conversion during battery discharging and AC to DC conversion for battery charging 26 The batteries are housed in a 6 300 square foot 590 m2 building 28 The TSP system can supply 32 megawatt hours of energy at a maximum rate of 8 megawatts This is sufficient to power between 1 600 and 2 400 homes for four hours 1 The amount of energy stored at TSP is equivalent to that stored in more than 2 000 Chevrolet Volt hybrid electric vehicles 29 nbsp Inside the Tehachapi Energy Storage Project during construction Specifications for mini system and full system 6 30 Mini System at Pomona CA Original Mini System at Pomona CA December 2015 Expansion Full System at Tehachapi CA Footprint 77 square feet 154 square feet 6300 square foot building Power 30 kW 60 kW 8 MW Energy 116 kWh 232 kWh 32 MWh Inverter One mini cabinet Two mini cabinets Two 40 foot containers Sections 1 2 4 Banks 1 2 32 Racks 2 4 604 Modules 36 72 10 872 Cells 2 016 4 032 608 832Deployment editTSP is an example of commercially available large scale energy storage for electric grid applications 31 and part of the increasing fleet of energy storage systems 32 The deployment of TSP has been part of the key foundation in developing energy storage in California 33 and for increasing grid reliability overall 34 TSP is also providing improved integration and opportunities for better operation of renewable energy resources 35 In 2014 TSP was one of the large scale energy storage projects in the interconnection queue for the California Independent System Operator CAISO with planned benefits including firming renewable generation frequency regulation spin and non spin replacement reserves ramp management and energy price arbitrage 36 The TSP system was tested using eight core tests performed by the grid operator or under market control 37 Some of the lessons learned included the challenges related to outage scheduling challenges with interconnection agreements benefits of component validation testing at the factories and preparing detailed step by step test plans in advance 30 Both the utility and system provider gained important perspectives and insights during the design construction commissioning and operating of the TSP system 38 6 22 To evaluate the 13 operational uses SCE defined eight tests to measure the ability of TSP to respond to the following system needs or signals Provide steady state voltage regulation at the local Monolith 66 kV bus Provide steady state voltage regulation at the local Monolith 66 kV bus while performing any other tests Charge during periods of high wind and discharge during low wind under SCE system operator control Charge during off peak periods and discharge during on peak periods under SCE system operator control Charge and discharge seconds to minutes as needed to smooth intermittent generation in response to a real time signal Respond to CAISO control signals to provide frequency response Respond to CAISO control signals to provide spin and non spin reserves Follow a CAISO market signal for energy price 6 Tehachapi Operational Uses and Tests 30 Operational Use Test 1 2 3 4 5 6 7 8 Transmission Voltage Support 1 X X Decreased Losses 2 X Diminished Congestion 3 X Increased System Reliability 4 X Deferred Transmission Investment 5 X X Optimized Renewable Related Transmission 6 X X System System Capacity Resource Adequacy 7 X X Renewable Integration firming amp shaping 8 X Output Shifting 9 X ISO Market Frequency Regulation 10 X Spin and Non Spin Reserves 11 X Deliver Ramp Rate 12 X X Energy Price Arbitrage 13 X The final project report for the United States Department of Energy after system deployment concludes that TSP is a modern day energy storage pioneer achieving a number of significant accomplishments that have proven the viability of utility scale energy storage using lithium ion technology 6 These accomplishments include 6 The largest lithium ion battery energy storage system in North America in terms of energy capacity 32 MWh at the time of commissioning in 2014 The first battery energy storage system in California specifically designed and operated as a dual use asset supporting utility transmission and distribution functions and operating in the competitive power market The first known use of a subscale or mini system by an entity other than a manufacturer or integrator to facilitate full scale testing commissioning and ongoing operations The first battery energy storage system integrated with SCE s systemwide Supervisory Control and Data Acquisition SCADA system providing high level visibility and control to grid operators The first battery energy storage system to be operated by SCE and one of the first to be interconnected certified and operated in the CAISO market The first modern large scale lithium ion battery energy storage system installed in an SCE substation and connected to the regional transmission network Serving as the foundation for subsequent SCE energy storage procurementsOperation edit nbsp Panoramic view of the battery building for the Tehachapi Energy Storage Project and Monolith SubstationSince the start of market operations in 2016 TSP has been listed in the Monthly Electric Generator Inventory of the Energy Information Administration EIA as an electric generator 39 During that time period the EIA began publishing more detailed energy storage information in its Annual Electric Generator Report including battery capacity charge and discharge rates storage technology types reactive power ratings storage enclosure types and expected usage applications 40 The operation of the TSP system has been described as a real life example of grid connected energy storage 41 and some of the initial testing included storing wind energy at night and delivering it during the day when customers need it 42 The California Independent System Operator CAISO a grid system operator shares its operating experiences of TSP internationally with other grid operators as part of continued close collaborations 43 The ongoing operation of the TSP system continues to provide grid services in the energy market and lessons learned for grid energy storage systems 44 45 In its annual report to the California Public Utilities Commission CPUC for calendar year 2020 SCE reported that TSP continued to operate in the CAISO wholesale market and that market benefits exceeded operating and maintenance costs 9 In addition to market operations SCE continued to collect operating data to evaluate the long term operating characteristics of grid scale lithium ion battery storage technology 9 TSP was taken offline on May 17 2021 and on August 23 2021 SCE submitted a request to the CPUC for the decommissioning of TSP due to the cost of safety upgrades and cybersecurity concerns 10 On May 5 2022 the CPUC formally decommissioned TSP nine years after it came online 11 46 The physical dismantlement of TSP is expected to be completed by the end of 2022 12 All of the battery cells will be recycled and the inverter will be repurposed 12 TSP operated for more than four years beyond the original two year demonstration period which SCE considers to be significant due to the fact that TSP uses first generation lithium ion BESS products that are no longer in production 10 The additional operational period has provided lessons learned about long term operations maintenance and repairs 10 Due to the system size TSP will be one of the first and largest lithium ion battery systems to undergo decommissioning 10 SCE describes that 10 TSP was a highly successful project that helped transform the industry demonstrate large lithium ion BESS technology increase operational experience for SCE and provide value for California utility customers The BESS far exceeded its original two year demonstration it s appropriate to decommission now Analysis editOne of the major benefits of the TSP system is the wide range of studies and analyses performed by multiple organizations to address various aspects of the energy market Operational information has been used as part of developing incentives for distributed energy storage for California New York Hawaii and several other states 47 The energy management system EMS and EMS structure for TSP have been studied to develop and determine the technical market and regulatory requirements for energy storage systems 48 The University of California Riverside has used TSP for the stochastic valuation of energy storage in wholesale power markets to determine optimal power dispatch sequences 49 The findings from this study include System performance is heavily affected by roundtrip efficiency and power to energy ratio The optimal power to energy ratio for wholesale power market is much higher than the nominal configuration of 1 to 4 typically used in existing energy storage projects The majority of revenues are from frequency regulation services 50 In a separate analysis the University of California Riverside used real market data from TSP to develop an optimal supply and demand bidding scheduling and deployment design framework based on the day ahead and real time market prices location size efficiency lifetime and charge and discharge rates 51 The topic of used and second use batteries is also examined and analysis shows that by using one of the proposed bidding methods TSP could still be profitable even after losing half of its energy capacity 51 Based on the studies described above the University of California Riverside performed an additional analysis for the scenarios where battery systems are investor owned and independently operated and participating in existing markets 52 The study proposes a new optimization framework to coordinate the operation of large price maker and geographically dispersed energy storage systems in a nodal transmission constrained energy market 52 The Institute of Electrical and Electronics Engineers IEEE published a collection of technical papers analyzing energy storage including a review of TSP 53 The review described how TSP met the project objectives and provided the required operational uses 53 While there were some challenges including control system issues and a poor transformer design these issues were not related to the storage technology itself 53 SCE continues to use its experiences from TSP in the development of additional energy storage projects 53 The Edison Electric Institute EEI which represents all investor owned utilities in the United States published a set of case studies and described how TSP has capabilities to provide nearly instantaneous maximum capacity for renewables ramping which minimizes needs for traditional backup generators 54 EEI also described that TSP remained operational after the 24 month pilot and testing period of the project 54 The European Commission performs an ongoing analysis of energy storage systems including TSP and has global collaborations with technical experts to exchange and to learn about operating details challenges and best practices 55 Some of the challenges resolved for TSP included the programming logic safety limits and data aggregation as well as the use of consistent paths for component communications 55 The analysis also mentions how in general the system integration and control aspects for energy storage systems need to be resolved and addressed by a European master plan 55 In addition recycling is a topic that needs to handled as market growth continues 55 PV Tech Power published a journal article describing how TSP and battery storage are being used as peaking capacity 56 The article mentions that TSP provided support for the rapid expansion of renewable energy as well as being a rare utility scale battery with a 4 hour duration during the 2014 timeframe when it was commissioned 56 The article explains how four hours is now considered to be the optimum duration for peaking capacity for two reasons 1 Mitigating peak demand as solar power ramps down in the late afternoon and evening and 2 Providing the optimum cost point for lithium ion batteries to provide that capacity 56 Awards and accolades editIt seems an unlikely setting for a technology revolution a wind swept patch of Mojave Desert squeezed in beside railroad tracks and a giant cement plant But there it is on the grounds of Southern California Edison s Monolith substation near Tehachapi Calif the largest battery for storing electricity in North America 1 Bill Loving Edison International Energized nbsp Information sheet distributed during ribbon cutting ceremony Page 1 nbsp Information sheet distributed during ribbon cutting ceremony Page 2 An official ribbon cutting ceremony site tour and presentation of a certificate of recognition from the California State Senate were held on September 24 2014 3 57 58 The ceremony speakers included Doug Kim Director of Advanced Technology Southern California Edison Zack Scrivner Supervisor Kern County Board of Supervisors Dr Imre Gyuk Energy Storage Program Manager United States Department of Energy Dr Seokhwan Kwak Vice President of Marketing LG Chem and Romeo Agbalog Office of State Senator Jean Fuller 18th District 58 Tours of the control room battery room and inverter enclosures were provided 57 58 Upon commissioning TSP was selected as a finalist for the 2014 Innovation Award for Energy Storage North America ESNA and elected to the ESNA Hall of Fame 59 60 Later in 2014 TSP was included in Innovations Across the Grid published by the Edison Foundation Institute for Electric Innovation which described how the distribution grid is evolving to optimize the electric grid integrate new resources and provide customer solutions 61 TSP was featured as a real life new energy resource case study 61 PBS science correspondent Miles O Brien covered TSP in the December 15 2015 edition of PBS NewsHour in a segment with Doug Kim of SCE that discussed the use of TSP to store energy generated by wind turbines 42 A hundred miles north of Los Angeles in Tehachapi California the wind can be a bountiful resource but unfortunately not at the right time It blows hardest at night spooling up these wind turbines to their peak output when the demand for electricity is at it lowest Miles O Brien PBS NewsHour So matching the output of wind to when customers really need it that s certainly one of the things that we re looking at with this system that you see here because you can store energy Doug Kim PBS NewsHourIn 2016 the California Energy Storage Alliance featured TSP in the lead position in a video with policymakers utility executives and energy storage pioneers titled Gamechangers How Energy Storage Transforms the Power System which describes how SCE pioneered the use of grid energy storage 62 Region 6 of the IEEE awarded its Director s Award to SCE in 2016 with the successful completion of TSP as one of the key accomplishments 63 The Energy Storage Association ESA awarded LG Chem the Brad Roberts Award for Outstanding Industry Achievement in 2017 for marketplace and industry accomplishments during the past several years including the successful delivery and commissioning of TSP 64 65 At the Kern County Energy Summit 2017 Vibhu Kaushik SCE principal manager described TSP as the start of utility scale energy storage projects for SCE 66 the story really started here in Kern County about five years ago when we built the world s largest energy storage project the Tehachapi Battery Storage Project 8 megawatts 32 megawatt hours It got a lot of attention and made news everywhere as battery storage became a part of the energy mix at that time as people started looking at battery storage as a megawatt size utility scale resource Vibhu Kaushik Kern County Energy Summit 2017 Southern California Edison s Recent Energy Storage Projects PBS featured TSP in the Search for the Super Battery episode of Nova in 2017 67 Host and science writer David Pogue described how lithium ion batteries are being installed on the grid and Doug Kim of SCE explained the use of TSP for smoothing firming and time shifting of wind power 67 The 2018 and 2019 Economic Round Table Reports from the Greater Antelope Valley Economic Alliance include TSP as a highlight in the Renewable Energy sections 68 Kern County California describes TSP as a key feature in its renewable energy portfolio 69 for storing energy from solar power and wind power and improving grid flexibility and reliability 70 Kern County continues to cultivate energy storage as providing economic development opportunities for 2020 and beyond 71 by 2023 storage facilities a hundred times bigger than TSP are operating in Kern California and USA 72 In 2019 the U S Department of Energy featured TSP in Success Stories Spotlight Solving Industry s Energy Storage Challenges 73 The case study examined two areas technology advancement and impact 73 TSP advanced technology by showing the abilities of lithium ion battery storage systems to ramp up nearly instantaneously to maximum power capacity 73 TSP also demonstrated technical capabilities for frequency regulation decreased transmission losses voltage stabilization and deferred transmission investment 73 The case study describes how TSP was operated outside of a laboratory and at scale 73 As a result one of the important impacts of TSP is that it provided practical experience in operations and reliability under real word conditions as one of the largest energy storage systems located on a high traffic grid 73 The project provided hardware and software learning opportunities for the system supplier for future projects 73 Additional impacts included providing increased definition and development of the process for interconnecting energy storage systems to the grid 73 In turn this provided improvements for integrating energy storage systems into power markets and providing financial data for the valuation of future projects 73 One additional impact mentioned was that the TSP provided an increased amount of renewable energy on the grid as well as improved grid reliability and power quality 73 In 2021 Forbes mentioned TSP as a notable example of energy storage used by SCE for charging and discharging power from the electric grid in support of renewable energy and electric utility preparations for electrification and decarbonization 74 Forbes explained that TSP can store and discharge energy at any time using lithium ion batteries with a limited duration 74 See also edit nbsp Energy portal nbsp California portal nbsp Engineering portal nbsp Environment portal List of energy storage projects List of battery storage power stations in CaliforniaReferences editCitations edit a b c Loving Bill SCE Unveils Largest Battery for Storing Electricity in North America Energized by Edison Retrieved 2020 05 10 a b International a b BakersfieldNow Staff 2014 09 23 Large battery energy storage project unveiled in Tehachapi KBAK BakersfieldNow Channel 58 Retrieved 2020 05 11 VIDEO LG Chem switches on 32 MWh energy storage system in California POWERGrid International 2014 09 26 Retrieved 2020 05 13 a b Business a b c d e f g h i j Pinsky Naum O Neill Lori 2017 03 31 Tehachapi Wind Energy Storage Project Technology Performance Report 3 U S Department of Energy National Energy Technology Laboratory doi 10 2172 1349233 OSTI 1349233 Gaillac Loic Castaneda Juan Edris Abdel Aty Elizondo David Wilkins Carl Vartanian Charlie Mendelsohn David May 2012 Tehachapi Wind Energy Storage Project Description of operational uses system components and testing plans Pes T amp D 2012 pp 1 6 doi 10 1109 TDC 2012 6281676 ISBN 978 1 4673 1935 5 S2CID 39924779 a href Template Cite book html title Template Cite book cite book a journal ignored help Energy Storage Edison International Southern California Edison Archived from the original on 2020 11 11 Retrieved 2021 04 04 a b c California Public Utilities Commission Advice Letter Number 4458 E Tehachapi Storage Project Continued Operations Market Benefits and Energy Storage Costs Southern California Edison April 1 2021 Retrieved 2022 01 28 a b c d e f California Public Utilities Commission Advice Letter Number 4568 E Tehachapi Storage Project Decommissioning and Cost Recovery Southern California Edison 2021 08 23 Retrieved 2022 01 28 a b McCarthy Elizabeth May 5 2022 Edison s First Generation Battery Storing Wind Energy Put to Rest California Current Retrieved 2022 05 06 a b c Gano Eliza Saying Goodbye to Tehachapi s Groundbreaking Clean Energy Storage Facility Energized by Edison Retrieved 2022 11 11 McFerron Whitney October 14 2014 Giant Battery Unit Aims at Wind Storage Holy Grail Commodities Bloomberg Silverstein Ken 2014 10 12 Electric cars have batteries Why not power plants Christian Science Monitor ISSN 0882 7729 Retrieved 2020 05 16 a b Hart David Sarkissian Alfred June 2016 Deployment of Grid Scale Batteries in the United States PDF George Mason University Prepared for Office of Energy Policy and Systems Analysis U S Department of Energy Rittershausen Johannes McDonagh Mariko Moving Energy Storage from Concept to Reality Southern California Edison s Approach to Evaluating Energy Storage PDF Southern California Edison Tehachapi Scenic Self Guided Wind Farm Tour PDF Greater Tehachapi Chamber of Commerce Muljadi E Butterfield C P Yinger R Romanowitz H January 5 8 2004 Energy Storage and Reactive Power Compensator in a Large Wind Farm PDF 42nd AIAA Aerospace Sciences Meeting and Exhibit doi 10 2514 6 2004 352 ISBN 978 1 62410 078 9 OSTI 15005523 Strassel Kim March 26 2015 ECO nomics Developing Better Energy Storage The Wall Street Journal Elliott Claudia 21 July 2012 Now amp Then Remembering the quake of 1952 Tehachapi News Retrieved 2020 05 17 United States Earthquakes U S Department of the Interior Geological Survey 1963 a b Gaillac Loic Fok Kevin April 2015 Energy Storage New Capabilities for the Electric Grid The Tehachapi Energy Storage Project Next Generation Batteries 2015 693 2005 IEEE Recommended Practice for Seismic Design of Substations standards ieee org Retrieved 2020 05 30 United States Geological Survey USGS Earthquakes earthquake usgs gov Retrieved 2020 05 17 The Bakersfield Californian Media 16 October 2015 Highway 58 to remain closed at least through weekend The Bakersfield Californian Retrieved 2020 05 17 a b c Southern California Edison California Public Utilities Commission SCE Energy Storage Experience TSP amp ISGD Program California Public Utilities Commission Irwin Mark June 12 2014 Energy Storage Demonstration Programs at Southern California Edison PDF Association of Energy Engineers SoCal Chapter Meetings Tehachapi Storage Project Edison International Newsroom McFerron Whitney October 14 2014 Giant Battery Unit Aims at Wind Storage Holy Grail Commodities Bloomberg a b c Bender Donald Byrne Raymond Borneo Daniel June 2015 Sandia National Laboratories Report ARRA Energy Storage Demonstration Projects Lessons Learned and Recommendations PDF McMahon Richard Infante Lola 2017 05 22 Harnessing the Potential of Energy Storage Power Engineering Retrieved 2020 05 10 Silverstein Ken April 21 2017 Energy Storage And Demand Response Propel California Forward On Earth Day Forbes Retrieved 2020 05 10 Nikolewski Rob 2016 08 29 Energy storage is taking on a greater role in the power grid But how big can it get San Diego Union Tribune Retrieved 2020 05 14 Magill Bobby January 13 2015 California Takes Lead In Developing Energy Storage Climate Central Mora Manuel Avendano Energy Storage for Enhancing Grid Reliability PDF University of California Riverside 2019 Energy Storage Technologies and Applications Conference Yan Joseph March 12 2015 Reliability and Affordability Challenges and Opportunities of Integrating Renewables PDF Center for Ultra Wide Area Resilient Electric Energy Transmission Networks CURRENT A National Science Foundation NSF Engineering Research Center Strategic Planning Meeting March 12 13 2015 California ISO Fast Facts Large Scale Energy Storage Pilots PDF 2014 Davis Grant September 21 24 2015 Tehachapi Wind Energy Storage Project PDF U S DOE OE Energy Storage Program Peer Review EESAT 2015 Technical Conference Irwin Mark November 12 2014 The Future of Energy Storage Kern County Energy Summit 2014 Preliminary Monthly Electric Generator Inventory based on Form EIA 860M as a supplement to Form EIA 860 United States Energy Information Administration Retrieved 2020 05 24 Batteries perform many different functions on the power grid Today in Energy U S Energy Information Administration EIA www eia gov Retrieved 2020 05 24 Wu Fu Bao Yang Bo Ye Ji Lei eds 2019 01 01 Chapter 6 Application of energy storage technology in grid connected new energy power generation Grid scale Energy Storage Systems and Applications Academic Press 203 241 doi 10 1016 b978 0 12 815292 8 00006 x ISBN 978 0 12 815292 8 S2CID 239257238 retrieved 2020 05 10 a b Ifill Gwen O Brien Miles 2015 12 15 How building a better battery would change the game for renewable energy PBS NewsHour Retrieved 2020 05 14 California Independent System Operator CAISO Renewables Grid Initiative October 2019 Energy Storage Perspectives from California and Europe Discussion Paper October 2019 PDF California Independent System Operator Rollo Jay Sands Marco Lessons from the Energy Storage Trenches DISTRIBUTECH International 2020 Retrieved 2020 05 10 Enslin Johan Fok Kevin Energy Storage Experiences in California DISTRIBUTECH International 2020 Retrieved 2020 05 12 Resolution E 5179 Authorizing Southern California Edison s decommissioning of the Tehachapi Storage Project PDF California Public Utilities Commission Retrieved May 7 2022 Breslau Lindsay Croweak Michael Witt Alan 2017 10 24 Batteries Included Incentivizing Energy Storage Sustainable Development Law amp Policy 17 2 Byrne Raymond H Nguyen Tu A Copp David A Chalamala Babu R Gyuk Imre 2018 Energy Management and Optimization Methods for Grid Energy Storage Systems IEEE Access 6 13231 13260 Bibcode 2018IEEEA 613231B doi 10 1109 ACCESS 2017 2741578 ISSN 2169 3536 Yu Nanpeng May 3 5 2016 Stochastic Valuation of Energy Storage Systems PDF IEEE PES Transmission and Distribution Conference and Exposition Yu Nanpeng Foggo Brandon March 18 2017 Stochastic valuation of energy storage in wholesale power markets PDF Energy Economics 64 2017 177 185 doi 10 1016 j eneco 2017 03 010 S2CID 38838653 a b Mohsenian Rad Hamed January 2016 Optimal Bidding Scheduling and Deployment of Battery Systems in California Day Ahead Energy Market IEEE Transactions on Power Systems 31 1 442 453 Bibcode 2016ITPSy 31 442M doi 10 1109 TPWRS 2015 2394355 ISSN 0885 8950 S2CID 17315858 a b Mohsenian Rad Hamed January 2016 Coordinated Price Maker Operation of Large Energy Storage Units in Nodal Energy Markets IEEE Transactions on Power Systems 31 1 786 797 Bibcode 2016ITPSy 31 786M doi 10 1109 TPWRS 2015 2411556 ISSN 0885 8950 S2CID 12636318 a b c d IEEE Power amp Energy Magazine September October 2017 56 www nxtbook com Retrieved 2021 04 05 a b Edison Electric Institute October 2018 U S Electric Company Investment and Innovation in Energy Storage PDF Edison Electric Institute Archived from the original PDF on 2021 04 28 Retrieved 2020 05 10 a b c d Schledde Dominik August 15 2018 Support to R amp D Strategy for battery based energy storage Technical analysis of ongoing projects D12 PDF European Commission Directorate General Energy a b c Battery storage as peaking capacity How Alamitos changed the game for California Energy Storage News 7 June 2021 Retrieved 2021 07 02 a b Smirnoff Nick Grand Opening of the Tehachapi Energy Storage Project The Loop Newspaper Retrieved 2020 05 12 a b c Ribbon Cutting for Southern California Edison Tehachapi Energy Storage Project From Edison International Energy Storage September 24 2014 Energy Storage North America ESNA Aug 18 2014 Energy Storage North America Names Top Nine Energy Storage Project Finalists PR Newswire Retrieved 2020 05 29 Energy Storage North America Hall of Fame Energy Storage North America Retrieved 2020 05 27 a b Edison Foundation Institute for Electric Innovation 2014 Volume II Innovations Across the Grid The Edison Foundation Gamechangers How Energy Storage Transforms the Power System Energy Storage North America February 22 2016 Milbourn Mary Ann SCE s Leadership in Grid of the Future Recognized Energized by Edison Retrieved 2021 04 05 LG Chem scores prestigious energy storage award from ESA Electrical Business 2017 05 07 Retrieved 2021 04 05 2019 ESA Award Winners Energy Storage Association 2019 04 19 Retrieved 2021 04 05 Kaushik Vibhu Vibhu Kaushik Southern California Edison s Recent Energy Storage Projects retrieved 2022 05 08 a b Search for the Super Battery www pbs org February 2017 Retrieved 2021 05 29 2018 Economic Round Table Report Greater Antelope Valley Economic Alliance 2018 2019 Economic Round Table Report Greater Antelope Valley Economic Alliance 2019 Meredith Kasey 12 February 2018 KEDC s Economic Summit highlights Kern s best assets The Bakersfield Californian Retrieved 2020 05 14 Market Overview PDF Kern Economic Development Corporation 2019 2020 Retrieved 2020 05 10 Jackson Cara 3 October 2019 What s up in town Art hospital news and economic growth tackled at EDC meeting Tehachapi News Retrieved 2020 05 23 Edwards Air Force Base harnessing the sun to bring more energy storage to the state KERO 23 ABC News Bakersfield 2 February 2023 a b c d e f g h i j U S Department of Energy Office of Technology Transitions July 2019 Solving Challenges in Energy Storage PDF a b Silverstein Ken March 8 2021 Utilities Are The Focus Of Electrification And Decarbonization But Can They Deliver Forbes Retrieved 2021 04 03 Bibliography edit SCE Unveils Largest Battery Energy Storage Project in North America Edison International Retrieved 2020 05 10 North America s Largest Battery Energy Storage System Now Operational www businesswire com 2014 09 24 Retrieved 2020 05 12 External links edithttps newsroom edison com releases sce unveils largest battery energy storage project in north america Listen to this article 31 minutes source source nbsp This audio file was created from a revision of this article dated 23 November 2021 2021 11 23 and does not reflect subsequent edits Audio help More spoken articles Retrieved from https en wikipedia org w index php title Tehachapi Energy Storage Project amp oldid 1214881597, wikipedia, wiki, book, books, library,

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